Molding machine



P. wl-:IEN 3,173,553

MOLDING MACHINE 8 Sheets-Sheet l March 16, 1965 Original Filed Jan. 20, 1959 March 16, 1965 P. wElEN Momma MACHINE 8 Shee'Ls-Sheet 2 Original Filed Jan. 20, 1959 INV EN TOR faul lliz'en ATTORNEYS BYJLWVW, M fm March 16, 1965 P. wElEN 3,173,553

MoLDING MACHINE original Filed Jan. 2o, 1959 s sheets-sheet s H" 1 is' INV ENTOR ATTORNEYS March 16, 1965 P. wEu-:N

Momma MACHINE 8 Sheets-Sheet 4 Original Filed Jan. 20, 1959 INVENTOR ATTORN March 16, 1965 P. wEn-:N 3,173,553

MOLDING MACHINE Original Filed Jan. 20, 1959 8 Sheets-Sheet 5 if l @o a5 y' 98 @08o I Il Il. 406 @f 'Il I hl' A 97 405 82 84 96 404 as a6 60,.. 1 .9.9 93 40o y 40/ 40.3 L [i 102 60 :l .-2 'l/ l" f3 94 8a v l z r l so so l

M INVENTOR 1 /87 faa//llen 8.9 s @zw/@M/M f ATTORNEYS- March 16, 1965 P. wElEN MOLDING MACHINE Original Filed Jan. 20, 1959 8 Sheets-Sheet 6 ATTORNEYS March 16, 1965 P. wElEN MOLDING MACHINE 8 Sheets-Sheet 7 Original Filed Jan. 20, 1959 INVENTOR faalllz'en Mm, W2

ATTORNEYS March 16, 1965 P. wElEN 3,173,553

MOLDING MACHINE Original Filed Jan. 20, 1959 8 Sheets-Sheet 8 ATTORNEYS United States Patent O 3,173,553 MOLDING MACHINE Paul Weien, Machinecraft Inc., Z6 Perry St., Marietta, Pa.

Original application Jan. 20, 1959, Ser. No. 787,999, now Patent No. 3,060,493. Divided and this application Aug. 21, 1961, ser. No. 138,212

1 Claim. (Cl. 214-1) The present invention relates to a molding machine. More particularly the machine of the present invention is adapted to receive a quantity of material, such as ground meat, or other moldable material and to form patties therefrom of a predetermined shape and weight. The novel features of the present invention, as will appear hereinafter, permit the molding machine to operate in such a manner as to produce the shaped articles of food or other moldable material much more efficiently and much quicker than has been effected heretofore on machines designed for the saine general purpose. Furthermore the machine of the present invention is designed in such a manner that the entire operat-ing cycle can be performed without requiring direct contact at any time with the human operating element.

This application is a division of my copending application Serial No. 787,999, iiled on January 20, 1959, now Patent No. 3,060,493.

Briefly stated, the present invention involves a cylindrically shaped hopper rotatable on a vertical axis relative to a stationary and horizontal base plate. The base plate encloses the bottom of the hopper but has an opening therein. A stationary pitched blade positioned within the hopper above the base plate will direct the material in the hopper towards the opening in the base plate as the material is moved by frictional contact with the sides of the rotating hopper.

A horizontal turntable having a plurality of verticallyarranged cylindrical openings therein is rotatably mounted to one side of the base plate such that, as each cylindrical opening passes beneath the base plate it comes into registry with the opening in the base plate. (Although the openings in the turntable have been referred to above and will be described hereinafter as cylindrical it should be understood that the holes can be of any other desired and predetermined shape.) A piston is slidably received within each cylindrical hole, and each piston is mounted on avpiston rod which projects downwardly beneath the turntable. The pistons move up and down within the cylindrical holes by means of a cam track, against which the lower ends of the piston rods are resiliently urged. As the turntable rotates, the pistons will move in accordance w-ith the configuration of the cam track; thus, when each cylindrical opening of the turntable is positioned directly below the opening in the base plate of the hopper, its corresponding piston is in its lowermost position such that the space between the top of the piston and the bottom of the hopper will permit the formation of a narrow cylindrical block (or patty) of material in this space. When the turntable moves to a position away from the base plate 'of the hopper, the piston will be moved upwardly such that its upper end will be level with the top of the turntable.

As the piston rods move from the upper cam track to the lower cam track in the direction of the opening in the base plate, these piston rods pass over an inclined cam segment which connects the two cam tracks. This interconnecting cam segment is adjustable with respect to the two cam tracks such that the pistons can be caused to commence their downward inclined movement towards the lower cam track at a later or earlier time as desired. Thus, if the machine is operating so as to produce relatively thin patties, it is desirable to advance the inclined ICC cam segment so that the pistons start their downward movement at a later time; if, on the other hand, a thicker patty or cake is being produced by the machine, it is desirable to move the inclined cam segment away from the opening in the base plate so that the pistons will start their downward movement at an earlier time. In this Way, the time cycle for lling the spaces above the pistons iS variable. It can be stated as a general proposition, for patties of a relatively constant density, that the duration of the filling cycle will increase as the thickness of the patty increases. Stated differently, the adjustable nature of the inclined cam segment also permits a control of the density of the patty.

Another rotatable supporting member is positioned above and to one side of the turntable. The second rotatable support includes therein a plurality of reciprocating impaling elements which are also operated by cams. For example, the vertical rods upon which the impaling elements are mounted are urged upwardly against a circumferential cam track; the cam track is so shaped that the impaling elements are adapted to pass downwardly through perforations or apertures in the rotatable supporting member as the latter is rotated. Also, movement of these impaling elements through their respective holes is in synchronism with the rotation of the turntable. Thus, as the turntable moves a patty from beneath the lixed plate of the hopper and upwardly into a position which is level with the top of the turntable, an impaling element (or group of the same) on the second rotatable support is moved downwardly so as to impale this patty and slide the same from the turntable. The patty is maintained in position on the impaling element and is not released therefrom until some time subsequent. As the rotatable support continues to move, the impaling element is elevated thereafter and the impaling elements are withdrawn from the patty so .as to permit the same to be dropped at some convenient location.

In the embodiment of the present invention, as shown in the drawings, the patties will be appropriately dropped onto a horizontal belt conveyor which may then, if desired, feed the patty into a pattern roll or again, if desired, through a scoring or transfer un-it.

The pattern roll is positioned above the horizontal belt conveyor and is movable upwardly and downwardly relative to the belt. The -outer surface of the pattern roll may be scored or knurled or may have any other predetermined configuration which it is desired to have irnparted to the patties coming in contactvvith this roll. Also, the pattern roll is driven such that its peripheral speed is the same as that of the conveyor belt moving beneath it. lf it is desired to change the shape of the generally cylindrical) patty being fe'd to the pattern roll into an elongated oval, then the pattern roll is preferably one in which a plurality of circumferential grooves are provided; the patty, passing under this type of pattern roll is merely lengthened in the longitudinal direction. A pattern roll having knurled surfaces will increase the horizontal dimensions of the patty in both longitudinal and transverse directions.

The scoring or transfer unit, as the same will be described hereinafter in greater detail, includes upper and lower interacting rollers. The upper and lower rollers may be provided with intercalating or interdigitating disc-` shaped knives which permit scoring of the patty on both its upper and lower surfaces. If desiired,.the lower roll of this device can be a smooth, solid roll in which case the patty is scored only on its upper surface; one advantage of this last variation is that the patties may be fed through this unit with papers adhering to the lower surfaces of the patties. Where the upper roll is elevated so that it is carried completely out of contact with the patty, the device functions merely as a transfer unit.

operation is'eiected through the interaction of a station-` ary pitch blade and Ia rotating hopper, wherein the material in the hopper is movedby frictional contact with the sides of the hopper and is directed towards an opening in the base by means of the stationary'blade.

Another objectof the present invention is to provide a machine of the type described above wherein the duration of the lling cycle is ladjustable with respect to the thickness of the patty produced.V

Another'object of the present invention is to provide a rotatable device which is movable in synchronism with the shapingy or molding mechanism and which is capable of engaging and removing the molded product from they molding mechanism and depositing the product upon another device spaced from the moldingfmechanism.

Another object of the present invention is to provide a pattern roll which is positioned above ai horizontal conveyor land driven at the sameperipheral speed as the conveyor and which is adaptedto increase the horizontal dimensions of the patties' inthe traversey and/ or longitudinal directions.

Another object of the present `'invention is to provide a scoring and transfer unitvwhich is capable of (a) scoring the upper and lower surfaces of the patties, or (b) the upper surface only of the patties, or, where the upper element is moved to an inoperative position, (c) acting solely as a transfer unit.,

Another object of the present invention is to provide' a machine of the type described above which is easily adjustablev to provide preformedmolded products of different predetermined sizes, shapes and weights.

Other and further objects and advantageous features VVcal hopper 9 which is supported on a horizontal bar 10v of the present invention will hereinafter Amore fully ap- Y pear in connection with a detailed description of the drawings wherein;

FIGURE 1 is a plan view of my novel chine; Y

FIGURE l2 is a longitudinal sectional view taken along section line 2-2 of FIGURE l;

FIGURE 3 is a transverse sectional view taken along section line 3 3 of FIGURE 1, showing the impaling elements and the supporting means therefor;

FIGURE is a sectional view, on anenlarged scale, of the drive means for the molding machine;

molding ma- FIGURE 5 is a sectional view taken along section line 5--5 of FIGURE 2,7showing the driving relationship hetween the various rotatable elements of the present 1nvention;

FIGURE 6 is a sectional view taken along section line 6-6 of FIGURE 2, showing the cam means associated with the turntable for forming the patties;

FIGURE 7 is a front elevation of the cam means-shown in FIGURE 6; 1

FIGURES`7a and 7b are side eleva-tions, taken at appropriate angles,rof the stationary cam track and the adjustable cam segment, respectively,v shown in FIGURE 6;

FIGURE 8 is an elevation view, on a slightly enlarged n 4 4 l t FIGURE; 12 is a front elevation of theY structure rshown in FIGURE 11;

FIGURE13 vis. a fragmentary view, on a somewhat enlarged scale, of a modified form ofthe pattern roll shown in FIGURE '11;

FIGURE I4 isa sectional view, on yan enlarged scale, taken .along section line 14-14 of .'FIGURE 11,v and showing the drive meansfor-'the scoring'ortransfer unit Vassociated'withl the present invention; y Y

FIGURE 215 isa sectional view, on an enlarged` scale, taken along section lineV 15-15 of FIGURE" 1'1,Y and showing theV relative association between the upper and lower portions of the scoring or transfer unit;

FIGURE 16.is afsectional-view, on an enlarged scale, taken along sectiontline ,16S-16, of FIGURE 12; and,

FIGUREv 17 is a sectional view, on an enlarged scale, taken along section line 17,-17 of FIGUREV 12V.r

Referring Vto the drawings in detail, inFIGURES 1, 2 and 3 there is shown a rotatable cylindrical hopper 1 which is mounted on a rotatable spider12 above a fixed baserplate 3. The spider 2 is keyed to a vertical shaft 4 which, in turn, is keyed to a worm gear 5. As shown in FIGURE 4, the gear 5 is .driven by a worm 6 mounted on a worm -shaft 7 which is driven by `an electricV motor 8. Thus, the hopper 1y together with fits spider-shaped base 2 is rotatable relative to the Vfixed base plate V3.

At the top of the rotatable hopper is a stationary coni-V extending kacross the top of the rotatable cylindrical `hepper 1. Suitable rectangular vopenings (not shown) are provided adjacent the bottom portion of the conical hopper 9 so as to engage -the bar V10 andprevent rotation of .the conical hopper. The ends vof the bar 10.are secured to vertical posts 11 and 12 by means of nuts 13 and 14 which are received on threaded rods 15 and 16 ypassing through suitable holes at the end of the barV 10. i

The bar 10 is provided with a centralcollar portion 17, through which projects an upper vertical extension 18 of the rotatable shaft 4. A stationary sleeve 19. surrounding the shaft 18 is secured .at its vupper end to Vthe collar 17 of the bar 10. The lowcr'end of the sleeve 19 is pro-Y vided with a helically shaped blade 20, which lis positioned in stationary fashion over aVv hole'21 provided in the stationary base plate 3. As best shown in FIGUREV 1, the stationary blade '20 *extends` over about 90 of the area of the base plate V3, thefupper orL leadingredge of the blade 20 being located ou a line below the bar 10 and the lowermost or trailing'edgeof the blade 20 being located directly above and towards the rear of the hole 21 in the base platef3. Thus, if material, such as ground meat, is placed inthe rotating cylindrical hopper` 1, frictional contactfbetween this material and the hopper will cause the material to pass beneath the blade 2G and into the Y khole 21 in the base plate 3.

scale, of `a paper dispensing meansv associated with the present invention;

FIGURE 9 is a fragmentary view of the cam means for operating the mechanism shown in FIGURE 8;

FIGURE l() is a section corresponding to the elevationV of FIGURE' 8V showing .the internal spring mounting for Y this mechanism; Y Y

FIGURE -ll is a plan View of the structure which extends to the right ofthe structure shown in 4FIGURE 1;

Located to therightof the hopper 1 and belowy the base plate 3 is a rotatable turntable 22, which'isprovided with a plurality (tive) of verticalV and cylindrically shaped holes, all of which are designated by the reference character 23. Turntable 22 is mounted for rotation on a sleeve 24 surrounding the vertical rod 25, the purpose of which'will bemore fully described hereinafter. A large ring-shaped gear 26 is secured to the underside of the turntable 22. This gear 26 meshes with a spur gear 27, which is keyed to the shaft 4.

In each hole 23 of the turntable 22 there is reciprocably mounted a piston 28. Each piston'28 has apiston rod 29 extending downwardly through a corresponding hole in the gear 26. Surrounding the lower end of the piston f rod 29 is-a helical spring30, which bears against the underside of the gear 26 and against enlarged portion 31 on the end of the piston rod 29. TheY lower end 31 on each piston rod 29 bears against the upper surface'of an adjustable cam track (or plate)f32 or against the upper portion of afstationary cam track 33, depending upon the relative rotary position of each piston at any given instance.

Referring now to FIGURES 2, 6 and 7, the cam track 32, which is adjustable, causes the pistons 28 to assume their lowermost positions as they pass clockwise beneath the hole 21 in the base plate 3 of the hopper. Cam track 33, which is stationary, causes the pistons 28 to be elevated to such an extent that the tops of the pistons are level with the surface of the turntable 22 when the pistons are moved to the position indicated by A in FIGURE 6. In riding over the surface of the cam track 33, the lower ends 31 of the piston rods 29 travel from point A to point B on a substantially level surface such that during this period of movement the tops of the pistons 28 are level with the surface of the turntable 22.

After passing beyond the point B, the piston rods slide over an intermediate cam segment 34 which is adjustably connected to the cam track 33 by means of bolt 35. The cam segment 34 includes a portion 34a which has an upper surface level with the surface of the cam track 33 u and a portion 34h which has a sloping surface C. The portion 34a has on its vertical (side) surface, towards the center of the turntable, a series of vertical serrations which are adapted to mesh or mate with complementary serrations on the corresponding adjacent surface of extension 33a of the stationary cam 33. The side of the sloping portion 34b of the cam segment 34 lies along the side of an adjacent interfitting portion 32a of the lower adjustable cam 32. The sloping surface C of portion 34b reaches the lower level of cam 32 approximately at point D. The cam 32, forward of point D, extends over a fiat uninterrupted portion E to the point F where the cam 32 meets the cam 33. At this juncture, cam 33 is provided with an extension 33h which slopes upwardly from point F, at or below the level of cam 32, to point A at the upper level of the cam 33. Cam 32 is provided with an adjacent intertting portion 32b which lies along the side of the extension 33h of the stationary cam 33. (All portions of the adjustable cam 32 are at the same level.)

The bolt 35 may be loosened and the cam segment 34 may be moved clockwise or counterclockwise relative to the cams 32 and 33 after which the bolt may be retightened such that the cam segment 34 is secured in a new position. The intermating serrated surfaces on the portions 34a and 33a will hold the cam segment 34 in a plurality of different fixed positions as desired.

From a consideration of FIGURE 6, if the cam segment 34 is advanced in a clockwise direction, it should be apparent that the pistons will commence to descend at a later time with respect to their approach to the hole 21 in the base plate 3. It should be pointed out also that the lower ends of the piston rods are so located, with respect to the overlapping portions of the various cammed members described above, that these rods will ride along the dividing lines between any two overlapping portions. Thus, the piston will slide smoothly in moving from one cammed portion to another, although the uppermost cammed portion will determine the position of the pistons at any given instant.

From a consideration of FIGURES 2 and 7, it should be apparent that the position of the cam 32 will ultimately determine the relative location of each piston 28 within its hole 23 as it rides to its lowermost position beneath the hole 21 in the base plate 3. For the purpose of permitting a variable amount of material to be forced or deposited into each hole 23 above each piston 2S, the cam track 32 is adjustable in a Vertical direction. The shaft 25, as indicated heretofore, passes downwardly through sleeve 24. At the lowermost end of the rod 25 there is a horizontal plate 36 to which the rod 25 is secured by means of nut 37. A plurality of shorter rods, designated by the reference numeral 38, are secured at their lower ends to the horizontal plates 36 by means of nuts 39. The upper ends of these shorter rods 33 are secured to the cam track 32 by means of nuts 40. The upper end of the rod 25 is threaded, as at 41, and a nut 42 is received on the threaded portion 41. By suitably turning the nut 42 the rod 25 may be raised or lowered such that the cam track 32 will be correspondingly raised or lowered.

Thus, referring to FIGURE 2, if it is desired to effect a smaller volume in the hole 23 above the piston 28 than would be produced from the present relative position of the elements shown in this figure, the nut 42 can be tightened so as to elevate the rod 25, causing the cam track 32 to be elevated accordingly. Thereafter, when the ends 31 of the piston rods 29 ride on the surface of the cam track 32 beneath the hole 21, the upper ends of the pistons 23 will be in a relatively higher position than as shown in FlGURE 2 and, thus, the quantity of meat or other moldable material that can be placed in the hole 23 will be diminished accordingly. The cani track 33 is not adjustable in the same sense as cam track 32, since the former cam must be so positioned that the upper ends of the pistons 28 will be on a level with the surface of the turntable 22.

As indicated heretofore the cam segment 34 permits a variation in the time when the pistons will commence to descend as they approach the hole 21 in the base plate 3. This action of the pistons is also correlated with the level of the adjustable cam 32. For example, if the position of the adjustable cam 32 is relatively high such that the resulting patty or cake (to be formed in the space 23 above the piston) is relatively thin, then it is desirable to have the cam segment 34 advanced clockwise so as to delay the starting of the downward movement of the piston whereby the time cycle for the filling of the space is reduced to a small interval of time. On the other hand, if the adjustable cam 32 is at or near its lowermost position such that the resulting cake or patty (formed in the space 23) is relatively thick, then the cam segment 34 should be moved counterclockwise so as to start the downward movement of the distance as soon as possible. Thus, for a relatively thick cake or patty, the time for the filling cycle is essentially at a maximum.

Referring again to FIGURES l, 2 and 3, positioned to the right and slightly above the level of the turntable 22 is a rotatable plate 43 which is connected to a hub portion 44. The driving arrangements for hub 44 and plate 43 will be explained hereinafter. At spaced positions around the circumference of the plate 43 are located a plurality of holes 46. An impaling element 47 is adapted to pass through each one of the holes 46 in the plate 43. Each group of impaling elements 47 is attached to the under side of a disc 43 which is suitably mounted at the lower end of a reciprocable rod 49. For the purposes of illustration, five such discs and rods are shown in the drawings. Another horizontal plate 50 is spaced above the plate 43 for rotation therewith. The plate Sil is provided with suitable holes 51, through which the rods 49 are permitted to reciprocate. Above the plate 50, a stationary and circular cam track 52 is located. The upper ends of the rods 49 are resiliently urged against the lower edges of this cam track by means of springs S3, which bear against the upper ends of the plate 5t) and against the ripper enlarged ends of the rods 49.

The circular cam track 52 is held in a stationary position at three different points. At its center, the circular cam S2 is secured to a rod 55, which passes through the hub portion 44 of the-plate 43; a suitable nut 56 engages the upper threaded portion 57 of this rod 55. At two other positions on the circular cam track 52 there are provided radial extensions 5S and 59 which are secured to vertical posts 66 and 61 by means of threaded nuts 62 and 63, respectively.

As will appear hereinafter, the rotation of the plate 43 is synchronized with the rotation of the turntable 22. At the same time, the configuration of the lower surface of the circular cam 52 such that the impaling elements 47 and discs 48 are urged downwardly into position in timed relation with the advance of the pistons 28 on the turntable 22. Thus, Vwhen `the corresponding pistons 28 and discs 48'reach the position indicated by G in FIGUREl 1,V the impaling Velements 47 will be urged downwardly and into any patty or block of material that Y happens to be resting on the upper surface of 'the corresponding pistons 28. Continued rotation of the plate 43v thereafter will slide the patty ofi the turntable since the patty will now'be held on the impaling elements 47.

As shown in FIGURE 3, the right-hand disc 48, withV its impaling elements'r47, is in its uppermost'position. In fact, the bottom of the track 52 is such that,Y with the disc 48 in its uppermost position under the action of the spring 53, a small amount of clearance is pro-.

vided between the upper end of the rod 49 and the lower surface of the track. On the other hand, the left-hand disc 48, together with its impaling elements 47, is in itsV lowermost position such that the disc is almost touching' the plate 43; The Same conditions hold true with regardy URE 1, the patties may drop conveniently upon a conveyor belt 70. Y I

Referring now to FIGURES 2, 3 and 5, means are provided for turning the plate 43 `at the sameY rotary speed as the turntable 22. The gear 26, which is driven by the spur gear 27, also drives another spur gear'71 against a plug 90, which is secured Withinthe sleeve 86 by means of a'pin 91'. Another horizontal plate 92 is secured at one'side` between two sections of the post 60 and at its` otherside is securedto avertical rodV 93 by means of ascrew 94. The lower end of the rod 93 passes through Va suitable hole in the cartridge 87 and engages a hole in the plate 88. 'It should be apparent that the vertical plate 92 will provide a stop for the upper vertical limit of they horizontal plate 82 in the event that the plate 81 andthe `papers 80 arenot attached to the plate 82.

As shown in FIGURE 8, an arm 95 is Vlocated to one side of the pad 80 such that the horizontal portion-of this arm-'bearsagainst the right-handpin 85. The vertical portion of the arm 95 is provided with -a horizontal extension 96 which is attached to a reciprocable rod-.97. At

`the upper end of the rod 97 there is attached a roller 9S.

rIfhe rod 97 passes through suitable-holes in an extension of the housing`99-f The lower' end 'of therod 97 is threaded such thattwo nuts 100 and 101 are received on this threadedend of the rod. A-smaller screw 102 is received within a suitable hole Yin the plate 88 and in a on the shaft 72. A smaller spur gear 73 is rkeyed to the i shaft 72 below the spur gear 71. Spur gear 73 meshes with an idler gear 74, which in turn meshes with largev spur Vgear 76, which is keyed to the sleeve 77. Sleeve 77 is also keyed to the hub 44 of the plate 43. The relationship between the sizes of the various gears describedV above is such that the plate 43 will rotate inV a counterclockwise direction and at the same rotary speed as the turntable 22.

' As'shown in FIGURES 1 and 3 and in further detail in FIGURES 8, 9V and 10, the' present kinvention also provides a means for dispensing small rectangular pieces of paper, these papers being placed beneath the patties as the same are moved from the turntable by the impal- Y action of the impaling elements 47, theblock yof papersy is moved upwardly against the underside of the pattyVV then passing by. The structure'for accomplishing this action comprises a package of papers 80 resting on -aV at plate 81. Plate 81 is removably attached to a supporting plate 82 by means of a wing nut 83, which en gages a threaded rod 84 attached to the underside of plate 81 and passing through a suitable slot in the `plate 82. A pair of pins 85 pass through suitable holes in the paper and in the plate 81 for the purpose of securing the papers l80 in a substantially xed position relative to the plate S1.

As best shown in FIGURE 10, plate 82 hasa tubular extensionA 86 which is received within the bore of a cylindrical cartridge 87, the latter being secured to a horizontal plate 88 forming a portion of the base structure of the present device. Aispring. 89 bears against the lower end of the cartridge 87. and, at its upperend,Y

Vbeneath the roller.

position directly below the end ofthe rod 9,7.` A spring 103 is received around the lower end of the rod 97' and over the head of thescrew 102.v Thusthefspring 103 urges therod 97in an upward direction. In order to prevent the lrod 97 from rotating about itsV longitudinal axis, there is provided ay horizontally projecting tab 104 Vwhichis welded-at its inner end to the rod 97. The tab a porti-on 44 of the horizontal plate 43 for rotation therewith. The circular` cam track 10S-is provided with ve identically-,shaped depressionsY 109, which `permit the roller 98, which is `bearingagainst the under surface of the'track 108, tomove up abruptly as -soon as the patty is'passing yover the pack of papers 80. As the cam track 108 continues to rotate, the roller y98 will follow the inclined surface of the depression 109 andthe pack of papers 80 will be lowered again 'to the initial position as shown in FIGURE 8.

As shown to the rightin FIGURES l `and 2 and in greater detail in rFIGURES ll and 12, the patties, as they are ucaused to fall due tothe elevation of the impaling elements, may be deposited conveniently on a belt 70. The drive fork the belt will be discussed hereinafter. As the upperrcourse of the belt 7 Ormoves towards the right, eac-h patty will pass beneath a pattern roll 111.z yThis pattern roll, which is also driven, has a series of circumferential grooves, as shown in'FIGURE V11,so as to `provide a pattern of that design on the` patty that is passing Alternatively, the pattern roll 111 may have r'aknurled surface as indicaed diagrammatically in FIGURE 13 by theroll 111.k

Afterpassing beneath the pattern roll 111', the patties, y

Vlarlyin FIGURES'14, 15, 16 and 17.V The scoring or transfer unit comprises a housing I 120, in which are mounted a rst and lower series of intercalating discs or knives. Referring'to FIGURES `15 andV 16, a iirst plurality of discs y121 is mounted for rotationf on -an.upper horizontal shaft 122. A second pluralityA of discs 123 is mounted forrotation on a lower horizontal shaft 124. As shown inl FIGURE 1'5, discs 121 and 123 may be provided with suitable teeth if desired.

The lower discs 123 are mounted in a sleeve 126 which isffrcely rotatable relative to the shaft y124. Similarly, discs 121 lare mounted in a .sleeve 127, which is freely rotatable relative to Vthe shaft 122. Also, it should ybe pointed out that shaft 124 is not vertically movable as is the case with shaft 122. At the right-hand end of the shaft 122, as it appears in FIGURE 16, the shaft is mounted in -a bearing member 128 which passes through a block 129. The upper end of block 129 is provided with an extension 130 which is pivotally attached to the outer end of an arm 131. Arm 131 is keyed to a shaft 132 upon which is also keyed another arm 133. Attached to the outer end of the arm 133 is a threaded nut 134 which is suitably received on a threaded bolt 135. Bolt 135 passed through flanges 136 and 137. At one end this b-olt is provided with a knurled head 138 and at the other end with a lock nut 139, which prevent axial movement of the threaded bolt 135. Adjacent the other end of the shaft 122 there is provided another bearing block 140 (similar to the bearing block 129) which is also attached to an arm 141, the latter being keyed to the shaft 132.

At the extreme left-hand end of the shaft 122, as it appears in FIGURE 16, there is provided a wing nut 142, which engages the o-uter threaded portion of this shaft. Referring now to FIGURE 12, there is shown a vertical slot 143 on the side of the casing 120. Thus, when the position of shaft 122 is varied by turning the knurled nut 138 in one direction or the other, the end of the shaft 122 will be moved upwardly or downwardly in the slot 143. When the desired adjustment has been reached, the Wing nut 142 may be tightened against the side of the housing 120 and, thus, locking the shaft 122 in the desired position.

The driving arrangement for the sleeves 126 and 127 is shown in FIGURE 14. A drive sprocket is keyed to a shaft 151. A sprocket 152 is freely rotatably mounted on the end of the shaft 124 and is connected in driving relation with the sleeve 126. Another sprocket 153 is freely rotatably mounted on the sha-ft 122 and is connected in driving relation with the sleeve 127. Idler sprocket 154 is rotatably mounted on a stub shaft 155 which is journaled in a portion of the housing 120. A chain 156 passes around sprockets 150, 152, 153 and 154 in the manner shown in FIGURE 14. Chain 156 drives the sprocket 152 in a clockwise direction and the sprocket 153 in a counterclockwise direction, with a corresponding movement of the sleeves 126 and 127 :and their discs 123 and 121, respectively.

As shown in FIGURE 17, shaft 151 is also connected in driving relation with a roller 160 over which belt 161 passes. The belt 161 will carry the patties which have passed between the lower and upper knife blades 123 and 121, respectively, and convey them to any convenient location.

The scoring and transfer unit has been described above in relation to upper and lower rollers which are provided with knives in the form of discs. It should be understood that the discs may be of any desired shape and, in this regard, the rollers shown in the drawings may be replaced with rollers having knives of a shape essentially different from those illustrated. When both rollers are provided with knives as shown, the patties passing through this unit will be scored on both the upper and lower surfaces. If it is desired to provide scoring on the upper surfaces only of the patties, the lower roller may be replaced by a smooth solid roller (not shown) in which case the patties may pass through this unit with the rectangular pieces of papers adhering to their lower surfaces. When the upper roller is moved to its uppermost position this device acts merely as a transfer unit.

FIGURE 3 shows a roller 170 mounted at the upper end of a vertical threaded rod 171. The threaded rod 171 is positioned by a nut 172 in an upward direction such that the roller bears against the underside of the gear 126 for the purpose of counterbalancing the downward forces that are exerted against the turntable adjacent the bottom of the rotatable hopper 1.

Again in FIGURE 3, the lower end of shaft 72 is keyed to a bevel gear 180. Bevel gear 180, in turn, drives another bevel gear 181 which is keyed to a horizontal shaft 182. As shown in FIGURE l1, a sprocket wheel 183 is keyed to the outer end of the shaft 182. Chain 184, designated by the dotted lines, passes around the sprocket wheel 183 and also around sprocket wheel 185 mounted on one end of shaft 186. A spur gear 187 keyed to the shaft 186 meshes with another spur gear 188 keyed to the shaft 189. A sprocket wheel 190 is also keyed to the outer end of the shaft 190. A chain 191 passes around the sprocket 190 and also around a sprocket 192 which is keyed to one end of a shaft 193. The pattern roller 111 is mounted on the latter shaft.

The interrelationship between the various driving elements described above is such that the pattern roller 111 is driven in the direction indicated by the arrow in FIG- URE 12 and at the same peripheral speed as that 0f the conveyor belt passing beneath. Where the pattern roller is of the type indicated by reference number 111, the thickness of the patty will be decreased and its horizontal dimension will be increased essentially in a longitudinal direction. On the other hand, when the pattern roller 111 is employed, the patty will be flattened in both the longitudinal and transverse directions.

At the opposite end of the shaft 186 from the sprocket 185 there is also keyed a sprocket 195. A chain 196 passes around sprocket and also around sprocket 197 which is keyed to the shaft 151 within the scoring or transfer unit 120.

As shown in FIGURES 1l and l2, the ends of the shaft 193 of the pattern roll 111 pass through a pair of parallel and pivotal arms 260. The arms 200 are provided with extensions 201, in which are located slots 202. The supporting frame for the pattern roll is provided with projecting threaded bolts 203 upon which are received wing nuts 204. By relatively loosening or tightening the wing nuts 204, the arms 200 may be pivoted about the lower lefthand ends thereof so as to permit a relative lifting or lowering of the pattern roll 111.

The operation of the mechanism heretofore described structurally will now be set forth in greater detail. After electrical power has been supplied to the motor 8 for the purpose of causing rotation of the above described elements of the present invention, a quantity of ground meat or other moldable material may be deposited in the rotatable cylindrical hopper 1. The meat or other moldable material may be chilled as desired for optimum molding conditions. As the cylindrical hopper rotates in a counterclockwise direction (referring to FIGURE l) the material within the hopper will be urged beneath the stationary pitched blade 20 and into the hole 21 in the plate 3. AS the turntable 22 rotates in a clockwise direction, and as the holes 23 come into registry with the hole 21 of the stationary plate 3, the pressure against the material in the hopper, due to the frictional contact between the material and the rotating hopper, will force the material into the pocket 23. It should be understood that the material is forced into the pockets 23 in the manner described above without compressing the material to the same degree that this corresponding molding action is accomplished in prior art machines designed for the same purpose. As indicated previously, the depth of this pocket 23 will be determined by the position of the Cam track 32, which, in turn, determines the location of the upper surface of the piston 28. As the turntable 22 continues to rotate in a clockwise direction, the pistons 28 will be elevated to the level of the turntable as they pass from beneath the rotating hopper 1.

As the turntable rotates to the position indicated by the reference character G in FIGURE 1, the impaling elements 47 mounted on the disc 48 will descend in Synchronism with this movement and impale the patty. The plate 43, upon which all of the impaling elements are mounted, will continue to rotate until, under the action of the cam 52, the impaling elements will be elevated as they approach the position designated by the reference character H and, thereafter, the patty will fall upon the belt 70.

i 1 Y t Prior to itsvdischarge onto the belt 70, the patt'ywhichV is heldy by the impaling .elements will pass over the pack of papers 80. The roller 98, which rides on the undersurface of the cam y108, will be urgedY into the recesses 109. in. timed relation with the passage of the pattyV over the pack of paper 80 so as to cause the pack 80 to be'rnoved upwardly against the under surface of the `patty; Frictional contact between the under surface` of the patty and the pack of paper 80 vwill cause the uppermost piece of paper to slide,A from theV pack; the patty, with paper adhering thereto, will lbe movedv to the position where it will be dropped on thebelt 70 in the mannerdescribed above.V The use of the paper dispenser is optional.` i Now if desired, the patty may passzalongthe conveyor belt and under the pattern roll 11,1 o1- 1111, depending upon which particular pattern roll is being employed at that time.

Also, ifrdesired, the patties leaving thepattern roll 111V may be passed into the scoring or transfer unit 120, from which they may be then sent to a place for packaging or other suitable consumption of the thus vformed products.

Where the present invention has been described in pali-` ticular relation to the drawings attachedA hereto,l it should be understood that'other and furtherl modifications, apart from those shown or suggested herein, might be made with in the spirit and scope of, this invention. v

What is claimed is: Y

Apparatus for handling patties of .plastic food-stuffs comprising a movable supply means for supplying 'a continuous succession of saidpatties arranged in spaced relation, a rotatabie support mounted on a vertical axis spaced from said supply means, a pluralityrof vertically reciprocable impaling means mounted on said rotatable support, said impaling means `being movableV downwardly through ycorresponding holes in said* rotatable support and being movable with their rotatable support in a circular .path passing over said supply. means, meansfor urging said impaling means r'esiliently in an upward direction, a cam for urging saidimpaling means downwardly through the holes insaid rotatable support as each said impaling means passes over saidv` supply means, rmeans forrotating said rotatable support in synchronism with the movement of said supply means, whereby each impaling means, in

descending, impales one of said patties andsflides the same Y fromsaid supply means, and means responsive to the continued rotation of said rotatable supportfor elevating said impaling means upwardly throughthe holes in said rotatable .support for yreleasing said patty :from `said virnpaling means. Y Y v Y Y References Ctedinthe file of `thispatent UNITED STATES PATENTS 1,619,729y Howard -Mar. 1, 192,4 1,935,739 Freese Nov.,2v1-, 1933 1,963,036 Trolley June'l2, 19-34 Y2,025,935 Bums .De. 31, 17935 V2,402,452

Schreiber `Y June 18, 1946 

